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POWER TO STAKEHOLDERS:THE GPM PLANNERS’ CREDO
GUI PONCE DE LEON, PhD, PE, PMP, LEED AP
PRESENTATION DECK
© 2015 PMA Technologies, LLC
Dr. Gui Ponce de LeonChief Executive OfficerPMA Consultants, LLC
Dr. Gui’s career in project management spans four decades. Since 2004, he has led the development of PMA’s groundbreaking graphical path method (GPM) of planning/scheduling and its software embodiments, NetPoint® and NetRisk™. With GPM, Dr. Gui is on a quest to transform project scheduling from a task performed by specialists using a “black box” to a stakeholder-centric process that relies on visual, graphical, sufficiently simple, kinetic, and cognitively responsive decision support tools that promote collaboration and enhance stakeholder interaction
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gui@pmaconsultants.com
© 2015 PMA Technologies, LLC
To frame the conversation, allow me to quote from the Preface to the paper introducing GPM presented at the 2008 PMI College of Scheduling 5th Annual Conference in Chicago:
2008 PMICOS 5th ANNUAL CONFERENCE, CHICAGO, IL
STEPPING BACK TO MAY 2008
“This new process, GPM, better facilitates planning and scheduling bymaking it a hands-on, planning-dominated process. GPM allows projectmanagers, superintendents, key subcontractors and other stakeholders tocollaboratively, in one session, network a project by graphically positioning activities on a time scale, using a variety of simple and intuitive logic ties to convey activity relationships.”
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© 2015 PMA Technologies, LLC
“If resources are associated with activities as added or repositioned, GPM continuously displays the evolving resource profile(s). Combining the best of precedence diagramming and arrow diagramming into a new diagramming paradigm,
STEPPING BACK TO MAY 2008 (CONT’D)
The Preface continues…2008 PMICOS 5th ANNUAL
CONFERENCE, CHICAGO, IL
GPM emphasizes the planning process for stakeholders charged with delivering the project but who are not professional schedulers.”
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© 2015 PMA Technologies, LLC
THE METHOD AS APPLIED IN PLANNING/SCHEDULING
Activities may be on planned dates without date constraints or preferential logic
An activity on planned dates can drift back and may float forward
As an activity is manipulated, GPM algorithms kinetically reposition impacted activities without invoking the CPM forward pass or backward pass
Both forward planning and backward planning are allowed
For every data date, total floats left of the data date are calculated, which allows algorithmic identification of the then-existing as-built critical path
The engine behind digital graphical and visualization tools that kinetically calculate and display the schedule as stakeholders physically manipulate activities, milestones, and benchmarks
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© 2015 PMA Technologies, LLC
GPM TIMELINE─2004 TO 2011
2004–The seminal May 2003 ENR article spurs the development within PMA of a computer graphics, event-driven planning and scheduling application rooted in algorithmic & planned dates, total floats, & the critical path 2008–Dr. Ponce de Leon introduces the basic
GPM planning/scheduling scheme of thought at the PMICOS 5th Annual Conference in Chicago
2007–PMA files first patent application for a new network-based planning/scheduling process, which came to be known as the graphical path method or GPM
2009–GPM forensic total float is introduced at the PMICOS Annual Conference in Boston
2009–In the first quarter, a Top 20 Contractor in the ENR Top 400 Contractor’s List licenses 12 copies of NetPoint
2008–GPM self-healing algorithms enabling a kinetic planning/scheduling user interface are developed by Dr. Ponce de Leon
2011–PMA Technologies holds the First NetPoint User Conference in Orlando, FL
2006–In October, PMA internal document discloses graphical method for simultaneously planning, scheduling and presenting activities, events, and their relationships in a hybrid arrow and precedence network format in a manner easily understandable to schedulers, other professionals, and even laymen
2008–Email conveying Jim O’Brien’s favorable peer review of the initial academic paper on GPM states: “To me, the loss of the logic diagram has been the unrecognized tragedy in the evolution of CPM scheduling and your GPM brings it back full circle.”
2003–May 26 ENR Article “Critics Can't Find the Logic in Many of Today's CPM Schedules”
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© 2015 PMA Technologies, LLC
GPM TIMELINE─2011 TO 2017
2011–NetPoint Version 4 is introduced at the First NetPoint User Conference in Orlando, FL
2013–GPM Risk and its software embodiment NetRisk are introduced at the NetPoint & GPM Conference
2014–AutoGRAPH, NetPoint’s constraint-based network layout authoring method, is introduced at the NetPoint & GPM Conference
2015–NetPoint Version 5 and NetRisk cost risk assessment are unveiled at the NetPoint & GPM Conference
2017–Anticipated commercial release of NetPoint Version 6 and NetRisk featuring a more cognitively powerful, yet even easier-to-grasp user interface
2012–First GPM patent is awarded by the USPTO in August
2014– 4th GPM patent is awarded by the USPTO in June
2015–First GPM Innovation Roundtable to be held in November in Denver, CO
2014–In April, a top 10 EPCcontractor on the ENR Top 400 Contractors List orders its 37th license of NetPoint
2010–O’Brien & Plotnick’s 7th
ed. of CPM in Construction Management cites NetPoint as providing “superior graphics for managing a project”
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© 2015 PMA Technologies, LLC
POWER TO STAKEHOLDERS: THE GPM PLANNERS’ CREDO
Stakeholder collaboration improves where level of detail encourages participation
Stakeholder interaction is best when the schedule is built both forward and backward
Stakeholder agreement on a workable plan is more important than fictive precision
Stakeholders more fluently process graphical, visual, and sufficiently simple schedules
Stakeholders favor practical schedules that use planned dates vs. all-early dates
Stakeholders favor resource leveling protocols that synergize man/machine interaction
Stakeholder-centric contingency estimating methods yield more reliable contingencies
Management of the project relies on visual, collaborative, transparent, and sufficiently simple processes that fully engage stakeholders and engender ownership of and commitment to the plan and the schedule
Our Credo states…
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© 2015 PMA Technologies, LLC
Stakeholder collaboration improves where level of detail encourages participation
Stakeholder interaction is best when the schedule is built both forward and backward
Stakeholder agreement on a workable plan is more important than fictive precision
Stakeholders more fluently process graphical, visual, and sufficiently simple schedules
Stakeholders favor practical schedules that use planned dates vs. all-early dates
Stakeholders favor resource leveling protocols that synergize man/machine interaction
Stakeholder-centric contingency estimating methods yield more reliable contingencies
Our Credo states…
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© 2015 PMA Technologies, LLC
ACHIEVING STAKEHOLDER COLLABORATION
• Collaboration, interaction, and commitment to the plan are achievable when stakeholders are allowed to directly interact with the model
• In planning sessions, NetPoint’s graphical, kinetic interface and visual network schedule display are stakeholder friendly and more effective in plan development than spreadsheets and butcher block paper
Level 1 and level 2 planning are the domain of executive managers, senior managers, and functional leads
Level 4 and level 5 planning are the domain of line supervision, e.g., in construction, foremen and trade superintendents1/2
LEVEL
4/5LEVEL
Strategic level 1 and level 2 planning sessions as well as level 4 and level 5 planning sessions occur with key stakeholders as active participants (given: planning sessions are properly organized)
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© 2015 PMA Technologies, LLC
Plan development and analysis are carried out directly on the model (e.g., the schedule) by the responsible stakeholders
FUELING STAKEHOLDER INTERACTION
GPM planning protocol: the scheduling software allows stakeholders to set milestones and strategies first, and then proceed to build the network/schedule forward (push planning) and backward (pull planning), as appropriate to the phase*
*For an explanation of “pull” and “push” planning, see Last Planner™ System of Production Control
PULL PLANNINGPUSH PLANNING
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© 2015 PMA Technologies, LLC
FUELING STAKEHOLDER INTERACTION (CONT’D)
The schedule is presented as a network diagram on a time scale
Communal work on the schedule is better achieved where:
The diagram is visual in the sense that action and the display of the action’s impact on the schedule are one and the same
The scheduler controls what/how information is displayed so the visual remains intuitive and simple to understand
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A sufficiently simple ethos that results in the schedule being fluently processed by schedulers and non-scheduling stakeholders alike
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© 2015 PMA Technologies, LLC
Emphasis is on scheduling and rescheduling, as needed
ATTAINING STAKEHOLDER AGREEMENT IS A NEW ETHOS
Emphasis is on collaborative planning
Command-and-control, overly detailed schedules are the
mission at any cost
A collective commitment to the plan and schedule reflecting all
key stakeholder information
Accumulate scheduling software gurus
Growing a cadre of planners who facilitate stakeholder sessions
Goal is to nail down far in advance start/finish dates of
small-duration activities
Goal is to set milestones and to strategically sequence items of work that drive progress and completion
If it ain’t broke, don’t fix it If it ain’t broke, break it!
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© 2015 PMA Technologies, LLC
Stakeholder collaboration improves where level of detail encourages participation
Stakeholder interaction is best when the schedule is built both forward and backward
Stakeholder agreement on a workable plan is more important than fictive precision
Stakeholders more fluently process graphical, visual, and sufficiently simple schedules
Stakeholders favor practical schedules that use planned dates vs. all-early dates
Stakeholders favor resource leveling protocols that synergize man/machine interaction
Stakeholder-centric contingency estimating methods yield more reliable contingencies
Our Credo states…Our Credo states…
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© 2015 PMA Technologies, LLC
A SUFFICIENTLY SIMPLE SCHEDULE PRESENTATION
Durations in Half Months
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© 2015 PMA Technologies, LLC
SUFFICIENTLY SIMPLE SCHEDULE MANIPULATION
Kinetic software tools use self-healing algorithms that automatically and instantaneously ensure that the model, when disrupted through physical manipulation, remains in a mathematically correct state
A software application provides a kinetic interface when the digital model behaves as an algorithmic working surface during external physical manipulation because the model objects encapsulate algorithmic rules and interact via message passing
The dynamic nature of the interface stimulates cognitive skills in what-if analyses
An unlimited UNDO/REDO feature is a given
Kinetic interfaces provide a cognitively enhanced platform because stakeholders’ physical manipulation of the model and the derived impact elsewhere on the model are visualized simultaneously
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© 2015 PMA Technologies, LLC
SUFFICIENTLY SIMPLE TARGET SCHEDULE PRESENTATION
This Gantt chart dependency is overcome in NetPoint® v5 by a visual target mode that graphically highlights variances between current and target schedule parameters right on the time-scaled network display
Saving a baseline, prior update, or schedule as a target has been a protocol since the early 1970s Lacking an artful way to portray current and target networks in the same display, practitioners, when comparing current and target activity dates, have resorted to Gantt charts for decades
If activities ahead of target are graphically deemphasized, then activities behind target are overemphasized
Variances recalculate as the current schedule is being revised, which provides a target visual that refreshes instantly as ahead and behind graphical notations react to revisions
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© 2015 PMA Technologies, LLC
STAKEHOLDERS’ ISSUE WITH ALL-EARLY-DATE SCHEDULES
Problem: A schedule chock-full of early dates that neglects making use of total floats is seemingly unrealistic to non-scheduling stakeholders responsible for delivering the project
Aspiring to more realistic working schedules, stakeholders resort to bar charts, often disconnected from the CPM schedule
Solution: Stakeholders schedule selected activities between early and late dates
In the GPM world, planned dates are used without overriding early dates, thereby preserving total float as derived from network logic; activities are scheduled on realistic dates while knowing the extent that activities can drift and float to the algorithmic early and late dates
GPM
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© 2015 PMA Technologies, LLC
THE GPM PLANNED DATES PRECEPT IN SCHEDULING
Activities placed between early and late dates are on GPM planned dates; the GPM algorithm retains the algorithmic early dates
Because planned dates do not override early dates, GPM detects that an activity retains the ability to drift back without forcing an earlier project start and that it may float forward as much as the late dates permit
The scheduler may manually override activity dates
The combination of planned dates/drift/float represents a paradigm shift from the CPM early-date bias, one-directional float protocol
DRIFT FLOAT TOTAL FLOAT=+
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© 2015 PMA Technologies, LLC
WORKING WITH GPM PLANNED DATES
GPM was conceived so that placing an activity (i.e., start date) between the early start and late start is a natural proposition
Because GPM allows scheduling activities between early and late dates without resorting to SNE constraints or preferential logic ties, drift is preserved and, therefore, total float is not sacrificed
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© 2015 PMA Technologies, LLC
Stakeholder collaboration improves where level of detail encourages participation
Stakeholder interaction is best when the schedule is built both forward and backward
Stakeholder agreement on a workable plan is more important than fictive precision
Stakeholders more fluently process graphical, visual, and sufficiently simple schedules
Stakeholders favor practical schedules that use planned dates vs. all-early dates
Stakeholders favor resource leveling protocols that synergize man/machine interaction
Stakeholder-centric contingency estimating methods yield more reliable contingencies
Our Credo states…
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© 2015 PMA Technologies, LLC
THE SORT OF 40-YEAR RESOURCE LEVELING SOLUTION
Starting with the early schedule, through opaque heuristics, CPM software calculates alternate activity start dates by delaying activities, if the early dates cause overruns in resource limits
A black-box operation that involves entering leveling criteria and pushing a button, followed by calculations and activity rescheduling on the whole, in one fell swoop. Very complex interface with lots of different options and toggles to check
It wasn’t too long before software-driven resource leveling fell by the wayside
Upshot sDystopia rather than Utopia
Black-box, automated solutions are not context-specific and produce unrealistic and usually very inefficient results
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© 2015 PMA Technologies, LLC
THE CPM RESOURCE LEVELING PREDICAMENT
“In general, I discourage the use of any button that, once pushed, takes the decision-making out of the minds of those who are charged with managing the project and instead delegates it to a softly hissing microchip.”
“…If you give this power to the computer (software), no human will thereafter be able to (easily) identify or understand the total-float of activities because it obscures the various paths and, hence, one will not be able to exploit activities according to available total-float. Do you really want to surrender such power to the computer?”
Murray Woolf Author of Faster Construction Projects with CPM Scheduling
So, what’s a stakeholder to do?
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© 2015 PMA Technologies, LLC
Woolf’s views are echoed in the GAO Schedule Assessment Guide:“Automated leveling may produce inefficient output, such as delaying activities if resources are partially available and, thus, prevent activities from being partially accomplished while the project waits for the full complement of resources to become available.”
The GAO guide further posits that:“Resource leveling can be performed automatically with scheduling software or manually by management and planners or both” (italics mine)
THE CPM RESOURCE LEVELING PREDICAMENT (CONT’D)
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So, what’s a stakeholder to do?
© 2015 PMA Technologies, LLC
To improve resource histograms, stakeholders, considering float and drift, may in every possible way shift a selected activity, crash or extend the activity, split the activity, and/or push UNDO to return to any prior state
GPM resource-constrained scheduling is a transparent, hybrid, stakeholder-driven/software-aided process that amalgamates schedule context and stakeholders’ judgment
As an activity is manipulated, other preceding and/or succeeding activities that are impacted based on network logic are correspondingly repositioned along the time scale
The GPM algorithms also synchronously refresh the evolving resource histograms
SYNERGIZING STAKEHOLDER/MACHINE INTERACTION
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© 2015 PMA Technologies, LLC
SIMPLE GPM RESOURCE ALLOCATION DEMONSTRATIVE
The objective is to eliminate the carpenter limit (6 carpenters) overrun between Dec 14 & Jan 5; the selected activity is Retail Fit-Out because it contributes to the overrun, is noncritical, and uses carpenters
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© 2015 PMA Technologies, LLC
GPM RESOURCE LEVELING IS BIDIRECTIONAL
As activities shift into planned dates and drift is generated, total float, except where an activity is crashed or extended, is unaffected by the resulting planned dates, which maintains total float traceability
The 6 steps involved in this demonstrative are detailed in the presentation Logic Gantt Chart RIP32
© 2015 PMA Technologies, LLC
RESOURCE LEVELING GOING FORWARD
Automated manual leveling as promoted by the GAO guide 2Hybrid, stakeholder-driven/software-aided leveling using GPM software3
1 Conventional, automated leveling via software-controlled heuristics
Softly hissing black box
Impractical in most scenarios
Computer-aided leveling
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© 2015 PMA Technologies, LLC
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COST & SCHEDULE CONTINGENCY ESTIMATING
Contingency: amount that experience indicates should be added to the budget estimate and schedule forecast so that…
The budget has a target probability of falling above actual cost
The schedule has a target probability of completing on or before the required completion date
“Integrative cost/schedule” methods integrate the impact of schedule risk on cost risk
“Stand-alone” methods evaluate cost risk independently from schedule risk
Methods for estimating contingencies are based on a structured evaluation of uninsured project risks
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COMMONLY USED CONTINGENCY ESTIMATING METHODS
For example, increasing forecasted completion by 4%-8% of the length of the critical path, but by no less than one week*
Expert judgment aka well-reasoned heuristics
Predetermined guidelines involving varying degrees of expert judgment and empirical rules
Parametric modeling involving an empirically based algorithm, usually derived through regression analysis with varying degrees of expert judgment or empirical rules**
Probabilistic risk assessment aka simulation analysis comprising expert judgment incorporated into a stochastic model
*This scheduling contingency heuristic is from Core Traits of a Reliable Schedule**AACE International Recommended Practice No. 42R-08
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© 2015 PMA Technologies, LLC
Humans are incorrigibly inconsistent in making summary judgments of complex information
When asked to evaluate the same information twice, they frequently give different answers1 2
THE CASE FOR CONTINGENCY VIA RISK ASSESSMENT
Brainstorming, Delphi, and other information gathering techniques done properly improve the accuracy of expert judgment because, where exercised at the cost item or activity level, it can be better related to experience in contextParticularly effective when risk assessment sessions include experts from outside the project
Kahneman, as well as Flyvjberg, posits that algorithmic predictions are significantly more accurate than expert judgment predictions
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© 2015 PMA Technologies, LLC
COST & SCHEDULE CONTINGENCY VIA RISK ASSESSMENT
Stand-alone methods are predominant
Integrated cost/schedule risk assessment is an integrative method favored by Hulett and other risk practitioners because it incorporates the impact of schedule risk on cost risk when the duration of activities using labor-type/time-dependent resources is risked
Integrated cost/schedule risk methods are questionable where the schedule level of detail renders activity cost loading a prohibitive exercise
Cost and schedule risk are combined by manually converting project schedule duration variability into a risked cost item
*Refer to Hulett’s Practical schedule risk analysis.
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© 2015 PMA Technologies, LLC
RELATED COST/SCHEDULE RISK ASSESSMENT
New cost/schedule risk assessment method slated to be introduced in
NetRisk in the fall of 2015
A less complex integrative method than integrated cost/schedule risk assessment in that cost items behave as hammocks and acquire start/finish dates from their related schedule fragnets
Where schedule activities are more detailed than cost items, the related method avoids the laborious step of allocating cost items to detailed activities*
2015 2016
For a position on the issue with activity cost loading, see The great divorce: cost loaded schedule updating.
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© 2015 PMA Technologies, LLC
With GPM returning stakeholders managing the project to the main stage, welcome to the era of Stakeholder-Centric Project Management
Integrative risk assessments that employ sufficiently simple schedules and engage stakeholders as active participants yield more reliable contingencies
Stakeholder interaction improves when both push planning and pull planning are used interchangeably when developing the network and the schedule
GPM networks, due to their sufficiently simple visuals, are intuitive and more fluently processed by schedulers and non-scheduling stakeholders alike
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Valid schedules are generated via stakeholder-centric processes
TAKE-AWAYS
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GPM software enhances the cognitive skills of schedulers and non-scheduling stakeholders because it kinetically conveys impact as stakeholders manipulate activities, logic ties, milestones, and benchmarks
GPM planned dates, which generate drift, not only render resource leveling practical, at last, but also preserve total float traceability
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© 2015 PMA Technologies, LLC
THE JOURNEY BACK TO STAKEHOLDER-CENTRIC SCHEDULING
1970s
1980 - 2010
1960s
2011 - Beyond
Stakeholders engage via collaborative processes. Focus is on neat logic diagram, often time-scaled. “Logic rules, dates serve” paradigm.
Increased reliance on mainframe computing and Gantt charts, less on logic diagrams. CPM takes hold. The rise of the CPM guru.
Planning takes a back seat to the calculation power of the PC. “Dates rule, logic serves” paradigm. Stakeholders disengage.
Emergence of symbiotic partnership between stakeholders’ thinking and objectbase graphics computing brings back the planning-centric process of the 1960s.
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AACE International. (2011). AACE International Recommended Practice No. 42R-08 Risk analysis and contingency determination using parametric estimating. AACE International Recommended Practices.
Ballard, G. (2000). Last Planner™ System of Production Control. UK: University of Birmingham.
Flyvbjerg, B. (2008). “Curbing optimism bias and strategic misrepresentation in planning: reference class forecasting in practice.” European Planning Studies 16, no. 1.
Hulett, D. (2008). Practical schedule risk analysis. Burlington: Gower Publishing Company.
Kahneman, D. (2011). Thinking fast and slow. New York: Farrar, Straus & Giroux.
Korman, R. (2003). “Critics can’t find the logic in many of today’s CPM schedules.” Engineering News-Record, May 26. New York: McGraw-Hill.
O’Brien, J. & Plotnick, F. (2010). CPM in construction management. 7th ed. New York: McGraw-Hill.
Orr, J. P. (2011). “The great divorce: cost loaded schedule updating.” AACE International Transactions.
Ponce de Leon, G. (2008). “Graphical planning method: a new network-based planning/scheduling paradigm.” PMI College of Scheduling 5th Annual Conference.
Ponce de Leon, G. (2010). “GPM and forensic total float.” PMI College of Scheduling 7th Annual Conference.
Ponce de Leon, G. (2013). Logic Gantt chart requiescat in pace. Ann Arbor: PMA Consultants, LLC.
Ponce de Leon, G. et al. (2014). Core traits of a reliable schedule. Ann Arbor: PMA Consultants, LLC.
US Government Accountability Office. (2012). GAO schedule assessment guide. Washington, D.C.: Author.
Woolf, M. (2007). Faster construction projects with CPM scheduling. New York: McGraw-Hill.
BIBLIOGRAPHY
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